Exploration of the Natural World

The darkened form of the common peppered moth, biston betularia f. carbonaria, known colloquially as the “soot moth,” was virtually unknown in England prior to 1800. The first reliable field specimen was collected outside of Manchester in 1848, plucked from the heart of Victorian England’s rapidly expanding coal economy. With their black abdomen and wings, these darkened morphs contrasted starkly with what had once been the more frequent form: a white-bodied moth lightly speckled with black and brown. As scientific studies now show, the black morph appeared as a result of industrial manufacture, first around major production centers and later around London. This article traces those studies to argue that the emergence of this particular form of melanistic moth signals a sharp pivot in Britain’s environmental history: its appearance augurs a new fossil modernity, in which coal replaces wood and animal fats as the primary source of English energy, and as stored sunlight, archived as coal, takes center stage as the driver for an endless steam-powered project of worldmaking. Tracing studies of “industrial melanism” to its origins at the beginning of this extractive, fossil-fueled modernity helps us see the soot moth’s emergence as a watershed moment in the history of life and a new chapter in humankind’s relationship to the category of nature.

This article examines British writing about the 1876-8 famine in southern and western India. In British newspapers and journals, the turn to thinking about famine in terms of the total population obscured the extreme variations in food access that worsened with rising economic inequality. When the British press in the late-1870s turned to human causes of famine, they either argued that India’s population overburdened India’s land, or suggested that more rail construction would prevent enough deaths sufficiently to mitigate British responsibility for famine conditions. The turn to population-based arguments helped either to perpetuate the belief that famine was a quasi-natural part of India or to parse the sudden increase in the frequency and severity famines in India under British rule.

This article focuses on the publication of Darwin’s final book (1881) in the context of Darwin’s larger attempts to resist the habitual anthropocentrism of human beings. It begins with Darwin’s discussion of animal cognition and the senses of worms. It concludes with his emphasis on the significant effects worm digestion has on the landscape and the fertility of the earth. The article links Darwin’s Worms Edwin Abbott’s 1884 novella Flatland, arguing that both texts are engaged in dismantling human perceptions that stem from possessing a highly visual brain, and that both throw doubt on the belief that a single objective world exists independent of particular observers.

1792 witnessed the publication of the complete version of Erasmus Darwin’s The Botanic Garden, a lengthy nature poem that surveyed the state of science in its day. The Botanic Garden proved immensely popular on its publication but later fell out of favor as the Anti-Jacobin took aim at its liberal politics. This paper focuses on one of the most notorious sections of the poem, in which Darwin describes his plan to change the world’s climate via iceberg destruction. The argument traces the reception of Darwin’s climate imagery from its initial reception through its redeployment in the poetry of Percy Bysshe Shelley. Although The Botanic Garden and its plan for climate intervention might be framed in terms of what philosophers call the “negative event”—an event that fails to happen—Darwin was essentially correct in his assertion that the technologies of the industrial revolution could be used to change the climate of the globe.

The event now known as “the voyage of the Beagle” comprises Charles Darwin’s circumnavigation as ship’s naturalist on the second of three surveying voyages by H.M.S. Beagle; the writings published as his first book, the Journal of Researches; and the genesis of his theory of evolution by natural selection. Writing between regimes of world-knowledge, Darwin mediates scientific observation through the language of aesthetics, and seeks to understand the convergence of disparate scales of geological and human history.